Cells have multiple sources of nutrients including fats and sugars, that can be used to create energy. As far as sugar is concerned, glucose is the sugar that is used by cells to produce energy.
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Needs- glucose and oxygen. Makes- water and carbon dioxide. During cellular respiration, glucose is combined with oxygen and is transformed in your mitochondria into the high-energy molecule called adenosine triphosphate (ATP). ATP is made of a base, a sugar and three phosphate groups. The phosphate groups are held together by a high-energy bond. When the bond is broken, a high level of energy is released and is used by the cells. Once the bond is broken ATP becomes ADP (adenosine diphosphate) which has only two phosphate groups and is able to pick up another phosphate. During cellular respiration, glucose is "burned" in the presence of oxygen, making water, carbon dioxide and lots(34) of energy. Water and carbon dioxide are by-products of cellular respirations.
Relative gravitational potential energy.
Fasting blood sugar measures the blood glucose level after a 12-hour fast (no food).
It is data that can be used in a chart. It can be values that are in cells in a worksheet.
Insulin does not cause water retention. Its main action is to move sugar into the cells where it can be used for energy.
Glucose
glucose
Cellular Respiration. Your cells need energy in the form of glucose to produce ATP (usable energy)
Carbohydrates are the primary source of energy for the body.They are one of the four types of Macromolecules which are: Carbohydrates, Proteins, Nucleic Acids, and Lipids.
The main function of the mitochondria is the production of energy. This energy is used up by the cells for their functions.
The main energy source used in cellular respiration, particularly in animals, is glucose. It is the common energy source cells use in respiration to generate ATP.
In plant cells, light energy is converted into sugar during the process of photosynthesis. This conversion takes place in the chloroplasts, which are specialized organelles found in the cells of green plant tissues. Within the chloroplasts, pigments such as chlorophyll absorb light energy, which is then used to synthesize sugar molecules through a series of biochemical reactions.
The chemical bonds of sugar are transformed into a potent form of energy known as ATP. It is responsible for transporting chemical energy within cells that will be used for metabolism.
ATP; adenosine triphosphate
What we call a muscle is really a large number of cells that work by contracting. Work that all cells do uses glucose, a simple sugar. This is used in producing ATP the "battery" that generates energy for the cells,
A monosaccharide sugar originating in plants and used in animals to carry energy throughout the body, just as sucrose is the main carrier of energy throughout the plant. It is prepared industrially by the hydrolysis of starch.